Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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TERMINATED
NA
15 participants
INTERVENTIONAL
2018-11-09
2023-03-28
Brief Summary
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Detailed Description
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Conditions
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Study Design
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RANDOMIZED
CROSSOVER
TREATMENT
NONE
Study Groups
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S0 - S1 - S2
S0 = no stimulation; washout; S1 = vehicle; washout; S2 = olfactory stimulation
Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
S0 - S2 - S1
S0 = no stimulation; washout; S2 = olfactory stimulation; washout; S1 = vehicle
Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
S1 - S0 - S2
S1 = vehicle; washout; S0 = no stimulation; washout; S2 = olfactory stimulation
Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
S1 - S2 -S0
S1 = vehicle; washout; S2 = olfactory stimulation; washout; S0 = no stimulation
Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
S2 - S0 - S1
S2 = olfactory stimulation; washout; S0 = no stimulation; washout; S1 = vehicle
Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
S2 - S1 - S0
S2 = olfactory stimulation; washout; S1 = vehicle; washout S0 = no stimulation
Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
Interventions
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Olfactory stimulations
Odors are disseminated using a portable fragrance device, a prototype developed by a research unit, CNRS UMR5292. The device is outside the incubator, the only part inside is a disposable Teflon tube. The odor flux stimulates distally the NBs' nostrils. Odoriferous compounds are placed in glass tubes. This allows the olfactometer to deliver three distinct odors (to avoid habituation) in a random scheme: spearmint odor, vanilla odor, and grapefruit odor (chemicals registered by Chemical Abstracts Service), while controlling for intensity (amount of compound), duration, and odor sequence. For the vehicle period, the glass tubes remain empty.
Stimulations occur every 5 minutes, for 5 seconds, they are mixed in medical gas to avoid infection. There are three 24-hour periods, and two 24-hour wash out periods, followed by a maximum of 3 days of surveillance.
Eligibility Criteria
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Inclusion Criteria
* Newborns hospitalized in the Lyon East or Saint-Etienne neonatology services, of both sexes, born before 33 weeks of amenorrhea and after at least 6 days of life, without respiratory disease beside premature birth.
* Newborns must present at least 3 bradycardia during 3 days, or presenting apneas at observation.
* Newborns will be randomized if they present at least 3 apnea episodes per 24 hour monitored by RECAN for 3 consecutive days prior to randomization.
* Written informed consents obtained from the newborns parents or legal representatives
Exclusion Criteria
* History of allergic reaction to smell stimulation (cough, sneeze, watery eyes, breathing pauses)
* No social insurance
6 Days
ALL
No
Sponsors
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Hospices Civils de Lyon
OTHER
Responsible Party
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Principal Investigators
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HELENE GAUTHIER MOULINIER
Role: PRINCIPAL_INVESTIGATOR
Hospices Civils de Lyon
Locations
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Hopital Femme Mère Enfant
Bron, , France
CHU de Saint-Etienne
Saint-Etienne, , France
Countries
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References
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Duchamp-Viret P, Nguyen HK, Maucort-Boulch D, Remontet L, Guyon A, Franco P, Cividjian A, Thevenet M, Iwaz J, Galletti S, Kassai B, Cornaton E, Plaisant F, Claris O, Gauthier-Moulinier H. Protocol of controlled odorant stimulation for reducing apnoeic episodes in premature newborns: a randomised open-label Latin-square study with independent evaluation of the main endpoint (PREMODEUR). BMJ Open. 2021 Sep 13;11(9):e047141. doi: 10.1136/bmjopen-2020-047141.
Other Identifiers
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69HCL16_0078
Identifier Type: -
Identifier Source: org_study_id
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